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Advancing In-Situ Remediation Through Data-Driven Design and Execution
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Advancing In-Situ Remediation Through Data-Driven Design and Execution
As in-situ remediation strategies advance, practitioners increasingly use technologies like Environmental Site Model® (ESM) to enhance project design, execution, and monitoring. ESM integrates high-resolution site characterization, real-time remedial tracking, and data-driven decision-making, consolidating geological, hydrogeological, and contaminant data into interactive 2D and 3D models. By incorporating GIS data, borehole logs, HRSC datasets, and real-time injection tracking, ESM enables precise planning and adaptive field execution, improving treatment efficacy and reducing uncertainties. ESM has been successfully applied in various remediation projects, including optimized in-situ injection programs for precise amendment delivery, permeable reactive barrier design and monitoring to control contaminant migration, and real-time field-to-office integration for streamlined data collection and responsive decision-making. Its implementation requires expertise in remedial design and site characterization, but when integrated into broader strategies, ESM delivers comprehensive, high-certainty solutions. It also supports time-lapse performance evaluation and generates reports with time-based groundwater and depth-based soil condition comparisons. Leveraging ESM and similar technologies sets higher standards for in-situ remediation, ensuring efficient, data-driven, and defensible project outcomes. This presentation will provide insights into how ESM-supported remediation strategies can lead to more effective site clean-ups, helping industry professionals better manage environmental liabilities and optimize remedial performance.
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